Exemplo n.º 1
0
 public BasicData(MathExpr function, Criteria criteria, MathExpr[] restrictions, VarBounds bounds)
 {
     this.Function     = function;
     this.Restrictions = restrictions;
     this.OptCriteria  = criteria;
     this.Bounds       = bounds;
 }
Exemplo n.º 2
0
 public GridBruteForce(BasicData input, double step) : base(input)
 {
     if (step <= 0)
     {
         throw new ArgumentException();
     }
     this.StepSize = Math.Abs(step);
     this.e        = 1 + MathExpr.GetPrecision(StepSize);
 }
Exemplo n.º 3
0
 private void SetChartArea(Optimize.BasicData.VarBounds bounds)
 {
     chart.Series.Clear();
     chart.Series.Add("Null");
     //chart.Series["Null"].Points.AddXY(0, 0);
     chart.ChartAreas[0].AxisX.Maximum  = bounds.X1Upper;
     chart.ChartAreas[0].AxisX.Minimum  = bounds.X1Lower;
     chart.ChartAreas[0].AxisY.Maximum  = bounds.X2Upper;
     chart.ChartAreas[0].AxisY.Minimum  = bounds.X2Lower;
     chart.ChartAreas[0].AxisX.Interval = MathExpr.Round(bounds.X1Interval / 20);
     chart.ChartAreas[0].AxisY.Interval = MathExpr.Round(bounds.X2Interval / 20);
 }
Exemplo n.º 4
0
        public static List <Series> Isolines(Optimize.BasicData input)
        {
            double x1step    = input.Bounds.X1Interval / (double)x1stepcount;
            double x2step    = input.Bounds.X2Interval / (double)x2stepcount;
            var    list      = new List <Point>();
            var    list_good = new List <Point>();

            for (int i = 0; i < x1stepcount; i++)
            {
                double x1 = input.Bounds.X1Lower + x1step * i;
                for (int j = 0; j < x2stepcount; j++)
                {
                    double x2 = input.Bounds.X2Lower + x2step * j;
                    double y  = input.Function.Calc(x1, x2);
                    list.Add(new Point(x1, x2, y));
                    if (input.CheckRestrictions(x1, x2))
                    {
                        list_good.Add(new Point(x1, x2, y));
                    }
                }
            }
            ;

            double min  = list.AsParallel().Min(p => p.Y);
            double max  = list.AsParallel().Max(p => p.Y);
            double step = (max - min) / steps;
            var    ss   = new List <Series>();

            ss.Add(PlacePoints(list_good, $"Restrictions", Color.LightGreen, 1));
            System.Threading.Tasks.Parallel.For(1, steps, (i) =>
            {
                int ey         = 1 + MathExpr.GetPrecision(min + i * step);
                double y       = MathExpr.Round(min + i * step, ey);
                double delta_y = Math.Pow(step, -ey) / 1.5;
                var list2      = list.Where(p => p.Y > y - delta_y && p.Y < y + delta_y);
                var s          = PlacePoints(list2, $"Iso{i}", SystemColors.Highlight, 1);
                int index      = new Random().Next(s.Points.Count / 3, s.Points.Count / 3 * 2);
                if (index > 0)
                {
                    s.Points[index].Label = y.ToString();
                }
                ss.Add(s);
            });
            return(ss);
        }
Exemplo n.º 5
0
        public override void RunOptimization()
        {
            Stopwatch stw = new Stopwatch();

            stw.Start();

            int x1Count = 1 + (int)(Data.Bounds.X1Interval / StepSize);
            int x2Count = 1 + (int)(Data.Bounds.X2Interval / StepSize);

            Iterations = (uint)(x1Count * x2Count);
            X1Array    = new double[x1Count];
            X2Array    = new double[x2Count];
            for (int x1Step = 0; x1Step < x1Count; x1Step++)
            {
                X1Array[x1Step] = MathExpr.Round(Data.Bounds.X1Lower + StepSize * x1Step, e);
            }
            for (int x2Step = 0; x2Step < x2Count; x2Step++)
            {
                X2Array[x2Step] = MathExpr.Round(Data.Bounds.X2Lower + StepSize * x2Step, e);
            }

            Matrix = new double[X1Array.Length, X2Array.Length];
            int opt_i = 0; int opt_j = 0;

            for (int i = 0; i < Matrix.GetLength(0); i++)
            {
                for (int j = 0; j < Matrix.GetLength(1); j++)
                {
                    Matrix[i, j] = Data.Function.Calc(X1Array[i], X2Array[j]);
                    if (Data.CheckRestrictions(X1Array[i], X2Array[j]))
                    {
                        if ((Data.OptCriteria == BasicData.Criteria.Minimum && Matrix[i, j] < Matrix[opt_i, opt_j]) ||
                            (Data.OptCriteria == BasicData.Criteria.Maximum && Matrix[i, j] > Matrix[opt_i, opt_j]))
                        {
                            opt_i = i; opt_j = j;
                        }
                    }
                }
            }
            stw.Stop();
            Duration = stw.Elapsed.TotalMilliseconds;
            Result   = new Point(X1Array[opt_i], X2Array[opt_j], Matrix[opt_i, opt_j]);
        }
Exemplo n.º 6
0
        Optimize.BasicData PrepareValues()
        {
            Optimize.BasicData data = null;
            try
            {
                var func = new MathExpr(funcTextBox.Text);
                logstr += $"y={funcTextBox.Text}\u2192{criteriaComboBox.Text}";
                var restr = new MathExpr[limitsGridView.Rows.Count];
                for (int i = 0; i < limitsGridView.Rows.Count; i++)
                {
                    string expr = limitsGridView[0, i].Value.ToString() + limitsGridView[1, i].Value.ToString() + limitsGridView[2, i].Value.ToString();
                    logstr  += ", " + expr;
                    restr[i] = new MathExpr(expr);
                }
                double x1min, x1max, x2min, x2max;
                x1min = Double.Parse(x1ltextBox.Text);
                x1max = Double.Parse(x1utextBox.Text);
                x2min = Double.Parse(x2ltextBox.Text);
                x2max = Double.Parse(x2utextBox.Text);
                Double.Parse(par1TextBox.Text);
                Double.Parse(textBox4.Text);
                Double.Parse(textBox3.Text);
                Double.Parse(textBox2.Text);
                uint.Parse(par2TextBox.Text);
                double par_eps = Double.Parse(textBox1.Text);

                var bounds = new Optimize.BasicData.VarBounds(x1min, x1max, x2min, x2max);
                logstr += " " + bounds;

                data = new Optimize.BasicData(func, crit, restr, bounds);
            }
            catch
            {
                MessageBox.Show("Не удалось обработать введённые данные. Процесс отменён.");
                logstr += "  -  Неудача!";
            }
            return(data);
        }
Exemplo n.º 7
0
        public override void RunOptimization()
        {
            Stopwatch stw = new Stopwatch();

            stw.Start();

            CheckStartPoint();
            Points = new List <Point>();
            Points.Add(StartPoint);
            uint  iter      = 0;
            Point prevPoint = StartPoint;
            int   e         = 3 + MathExpr.GetPrecision(Epsylon);

            while (step1 > Epsylon || step2 > Epsylon)
            {
                iter++;
                bool   x1_success = false;
                bool   x2_success = false;
                double pr_x2      = MathExpr.Round(prevPoint.X2, e);
                double x1Upper    = MathExpr.Round(prevPoint.X1 + step1, e);
                if (Data.CheckRestrictions(x1Upper, pr_x2))
                {
                    double y = Data.Function.Calc(x1Upper, pr_x2);
                    if (IsBetter(y, prevPoint.Y))
                    {
                        prevPoint  = new Point(x1Upper, pr_x2, y);
                        x1_success = true;
                    }
                }
                double x1Lower = MathExpr.Round(prevPoint.X1 - step1, e);
                if (Data.CheckRestrictions(x1Lower, pr_x2))
                {
                    double y = Data.Function.Calc(x1Lower, pr_x2);
                    if (IsBetter(y, prevPoint.Y))
                    {
                        prevPoint  = new Point(x1Lower, pr_x2, y);
                        x1_success = true;
                    }
                }
                if (!x1_success)
                {
                    step1 /= div;
                    double x2Upper = MathExpr.Round(prevPoint.X2 + step2, e);
                    double pr_x1   = MathExpr.Round(prevPoint.X1, e);
                    if (Data.CheckRestrictions(pr_x1, x2Upper))
                    {
                        double y = Data.Function.Calc(pr_x1, x2Upper);
                        if (IsBetter(y, prevPoint.Y))
                        {
                            prevPoint  = new Point(pr_x1, x2Upper, y);
                            x2_success = true;
                        }
                    }
                    double x2Lower = MathExpr.Round(prevPoint.X2 - step2, e);
                    if (Data.CheckRestrictions(pr_x1, x2Lower))
                    {
                        double y = Data.Function.Calc(prevPoint.X1, x2Lower);
                        if (IsBetter(y, prevPoint.Y))
                        {
                            prevPoint  = new Point(pr_x1, x2Lower, y);
                            x2_success = true;
                        }
                    }
                }
                Points.Add(prevPoint);
                if (x1_success || x2_success)
                {
                    continue;
                }
                else
                {
                    step1 /= div;
                    step2 /= div;
                }
            }
            stw.Stop();
            Duration   = stw.Elapsed.TotalMilliseconds;
            Result     = Points.Last();
            Iterations = iter;
        }